The New England journal of medicine
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We attempted to define the substances that contribute to the characteristic "uremic breath" of patients with end-stage renal disease. Breath samples from nine patients underwent direct analysis before and after hemodialysis with use of gas chromatography and confirmation by mass spectrometry, and indirectly assessment by an organoleptic panel. Concentrations of secondary and tertiary amines, dimethylamine and trimethylamine were increased, with subsequent reduction after hemodialysis (dimethylamine from 2.00 +/- 0.19 [S. ⋯ Treatment with nonabsorbable antibiotics in two patients reduced both serum and breath amine levels without dialysis. Loss of nitrogen via the breath was not quantitatively important. We conclude that uremic breath reflects the systemic accumulation of potentially toxic volatile metabolites, among which dimethylamine and trimethylamine have been positively identified and correlated with the classic fishy odor.
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Case Reports
Syndrome of acquired factor X deficiency and systemic amyloidosis; in vivo studies of the metabolic fate of factor X.
To determine the metabolic fate of factor X in primary amyloidosis associated with factor X deficiency, we examined the pathways of its catabolism in a man with this syndrome. Intravenous infusion of human or bovine 131I-labeled factor X established a triphasic plasma clearance pattern for factor X. About 85 per cent of the factor X disappeared, with a disappearance half-time of less than 30 seconds. ⋯ Relatively minor quantities of 131I were cleared into the urine. We observed a diffuse distribution of radioactivity over the body surface, with a concentration in the hepatic and splenic regions. These studies demonstrate than factor X deficiency associated with systemic amyloidosis is due to binding of factor X to body tissue, probably within the circulatory system.